decontamination of the bd facsaria ii: is the prepare … of the bd facsaria ii: is the prepare for...
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Decontamination of the BD FACSAria II: Is the Prepare for Aseptic Sort Procedure Effective?
Catherine McIntyre and Gil ReininJanuary 28, 2010
For Research Use Only. Not for use in diagnostic or therapeutic procedures.
Summary
•
Overview•
BD FACSAria™
II fluidics
•
Prepare for Aseptic Sort (PAS) procedure•
Decontamination of the BD FACSAria II•
Bacteria
•
Endotoxin•
Tips to limit contamination
BD FACSAria II and PAS procedure
•
The BD FACSAria system was launched in 2003 and was a paradigm shift for cell-sorter design.•
Gel-coupled cuvette
•
Octagon detectors•
Digital electronics
•
Novel fluidic design•
Automated modes•
Startup and shutdown •
Prepare for Aseptic Sort
•
The BD FACSAria II system was launched in 2008.
Non-pressurized supply
Pump from and to containers•
10-L tanks
•
20-L cubitainers
Storage of all cleaning fluids in 5-L tanks •
Deionized
water
•
Bleach•
Ethanol
BD FACSAria II
Voice of the customer•
Customers requested a streamlined fluidics system that was easier to decontaminate
The BD FACSAria II fluidics system designSample Regulator
Fluidics Cart Cytometer
AIR PRESSURE
BULKINJECTION
Sheath Tank
AIR PRESSURE
ASPIRATEDWASTE
(VACUUM)
ASPIRATEDWASTE
(DEGAS)
SHEATHFILTER
0” – 9”
R1
Sheath Regulator
R2
V17V20
V5V6
New wet cart
•
New 10-L pressurized sheath tank•
New level sensor allows use of 95% of tank volume
•
Pressurized 5-L ethanol shutdown tank
•
Filters moved to front for easy access
PAS procedure
•
Wizard in BD FACSDiva™
software leads the cytometer operator through the decontamination of these components:•
Sheath path•
Flow cell•
Sample path
•
During the PAS procedure:•
The sheath umbilical line is connected to the Liquid Out port of
the wet cart.
•
The customer is required to autoclave the sheath and DI tanks for optimal decontamination.
•
Upon completion of the PAS procedure:•
The sheath umbilical is reconnected to either the sheath tank or
pressurized ethanol tank (for startup or shutdown, respectively).•
The sheath filter is replaced.
PAS: Wetcart Liquid Delivery
V1 V2 V3 V4
P3
P2V12
DI BLEACH ETHANOL WASTE
WETCART
BUBBLEFILTER
BUBBLEFILTER
BUBBLEFILTER
1.
Run Bleach2.
Soak3.
Rinse with DI4.
Soak5.
Rinse with Ethanol
PAS: Flow cell and SIP
ASPIRATEDWASTE
(VACUUM)
ASPIRATEDWASTE
(DEGAS)
R2
Sample Regulator
V17V20
V5V6
1.
Run Bleach2.
Soak
PAS: Flow cell and SIP
ASPIRATEDWASTE
(VACUUM)
ASPIRATEDWASTE
(DEGAS)
R2
Sample Regulator
V17V20
V5V6
1.
Run Bleach2.
Soak3.
Rinse with DI4.
Soak
PAS: Flow cell and SIP
ASPIRATEDWASTE
(VACUUM)
ASPIRATEDWASTE
(DEGAS)
R2
Sample Regulator
V17V20
V5V6
1.
Run Bleach2.
Soak3.
Rinse with DI4.
Soak5.
Rinse with Ethanol
PAS procedure: Cleaning residue
•
Residual levels of bleach and ethanol remaining in the fluidics system after a PAS procedure were checked during product development.
•
The residual levels were found to be•
<0.01 parts per million (ppm) of bleach
•
<0.01 ppm
of ethanol
Summary
•
Overview•
BD FACSAria
II fluidics
•
Prepare for Aseptic Sort (PAS) procedure•
Decontamination of the BD FACSAria II•
Bacteria
•
Endotoxin•
Tips to limit contamination
Application notes
•
Two studies performed that investigated the effectiveness of the PAS procedure•
Decontamination of the BD FACSAria II System Using the Prepare for Aseptic Sort Procedure
•
Reduction in Endotoxin Levels After Performing the Prepare for Aseptic Sort Procedure on the BD FACSAria II Flow Cytometer
Background: Cell culture
•
Cell culture is a common procedure used in the laboratory.•
Cells
•
Flask•
Cell-culture medium
•
Incubator•
Cell culture requires sterility of all components that come in direct contact with the cells.
Bacterial contamination
•
Antibiotics can be used to prevent or control contamination, BUT antibiotics can:•
Be toxic to or affect the metabolism of the cells in culture
•
Result in low level of antibiotic-resistant bacteria that might:
•
Mask the presence of contamination•
Deplete essential nutrients and other factors required by the cells
•
Cause the the accumulation of bacterial metabolites •
The best remedy is not to have contamination in the first place!
Aseptic technique
•
Techniques used in the laboratory to minimize the chance of contamination•
Step 1: Make sure everything is sterile to start with
•
Step 2: Make sure everything stays sterile•
Bacteria•
Approximately 1,000 different species of bacteria present on human skin
•
Estimated that there are 1012
bacteria on an average human
Aseptic technique
•
It’s all about risk: minimize the chance of contaminants coming in contact with the cells•
Wear gloves and tie back hair•
Keep all surfaces as clean as possible •
Biological safety cabinet•
Bleach and alcohol•
Use sterile equipment whenever possible•
Tissue-culture flasks•
Pipets•
Tubes•
Use sterile reagents whenever possible•
Media•
Buffers•
Sera•
Reduce clutter
Cytometers can be very “dirty”
•
Used by lots of different operators•
Different operators use different sample types•
Human blood
•
Non-human samples•
Cultured cells
•
Bacteria•
Yeast
•
Sometimes not maintained properly
Application note: Bacterial contamination of the BD FACSAria II
•
Log phase cultures of four different kinds of common bacteria•
P. aeriginosa
•
E. coli•
B. cereus
•
S. epidermis
Bacterial contamination of the BD FACSAria II
Fluidics Cart Cytometer
AIR PRESSURE
BULKINJECTION
AIR PRESSURE
ASPIRATEDWASTE
(VACUUM)
ASPIRATEDWASTE
(DEGAS)
SHEATHFILTER
0” – 9”
R1
Sheath Regulator
R2
Sample Regulator
V17V20
V5V6
Bacteria
Method and results
•
Day 0: Added bacteria to the sheath tank•
Day 4 •
Sample: 9 x 105
CFU/mL•
PAS procedure
•
Bleach, water, and ethanol through fluidics•
Autoclaved sheath tank•
Replaced sheath filter
•
Sample: 8 CFU/mL•
Days 5, 6, 7, and 8•
Sample: 0 CFU/mL
Is the PAS procedure effective?
•
Yes!•
This proof of principle experiment showed that:
•
The PAS procedure can be effective at decontaminating a BD FACSAria II contaminated with up to 9.8 x 105
CFU/mL•
The fluidics system remained “bacterium free”
for at least 4 days after the PAS procedure was performed
Summary
•
Overview•
BD FACSAria II Fluidics
•
Prepare for Aseptic Sort (PAS) procedure•
Decontamination of the BD FACSAria II•
Bacteria
•
Endotoxin•
Tips to limit contamination
Application notes
•
Two studies performed that investigate the effectiveness of the PAS•
Decontamination of the BD FACSAria II System Using the Prepare for Aseptic Sort Procedure
•
Reduction in Endotoxin Levels After Performing the Prepare for Aseptic Sort Procedure on the BD FACSAria II Flow Cytometer
Background: Bacteria and the potential for contamination
•
Bacteria•
Numerous
•
Ubiquitous•
Can survive in nutrient-poor conditions
•
Classified into gram positive and gram negative
•
Endotoxin is a component of the cell wall of gram-negative bacteria
Simplified bacterial cell wall structure
Endotoxin /Lipopolysaccharide (LPS)
Peptidoglycan
Plasma membrane
Gram-negative bacterium Gram-positive bacterium
Endotoxin is released in:•
Large amounts when a gram-negative bacterial cell dies•
Small amounts during gram-negative
bacterial cell division
Biological properties of endotoxin
•
Activation of monocytes and macrophages•
Production of inflammatory mediators
•
Nitric oxide synthase II•
Cyclo-oxygenase-2•
Endothelin-1•
TNFα•
IL-1β•
IL-6•
Other inflammatory cytokines
•
Used (on purpose) in experiments to induce these cytokine responses for research studies
Biological properties of endotoxin
•
In vivo effects:•
Pyrogen•
Toxic shock•
Tissue injury•
Death•
Safe dose for a 20-g mouse: 0.1 Endotoxin Units (EU) administered over a 1-hour period
•
0.1 EU/mL was used as our target value for this study
•
Thought to play a role in:•
Innate immunity•
Tolerance•
Allergy•
Other immune diseases
Importance of endotoxin
•
Endotoxin has the potential to have an effect on:•
Any in vitro study that includes monocytes or macrophages as a direct or indirect component
•
PBMCs•
Whole bloodExample: Studies on T-cell activation are often performed
using PBMC cultures. The presence of endotoxin might cause non-specific or unintended effects.
•
Any in vivo study of drugs, devices, or biologics•
Efficacy•
Safety•
Toxicity
Endotoxin testing
•
Limulus Amoebacyte
Lysate
(LAL) kinetic assay
•
Many products available that are tested for endotoxin•
Referred to as:
•
Non-pyrogenic•
Low endotoxin•
Endotoxin free
•
Testing is the ONLY way that you can determine if endotoxin is present.
Sources of endotoxin
•
Anywhere that a gram-negative bacterium has been•
Surfaces: eg, pipets, tubing, lab bench, tubes
•
Equipment: eg, flow cytometer, centrifuge•
Samples: eg, cell suspension
•
Cleaning solutions: eg, bleach, ethanol, water•
Reagents: eg, antibodies, medium, serum
•
Can be readily transferred between any of these
•
Endotoxin is everywhere!
So…
•
The level of endotoxin in a cell preparation can only be as low as the “most contaminated”
reagent or surface
that the cells in the preparation have come in contact with.
Application note study plan
•
Three-phase approach•
Baseline•
Standard PAS•
“Low-endotoxin”
PAS•
Three BD FACSAria II flow cytometers•
Triplicate samples when machine turned on•
Quadruplicate samples after “mock”
sort•
All samples were collected prior to endotoxin testing (blind study)
•
Samples sent to an outside laboratory with experience in cGMP testing for endotoxin •
Testing in triplicate over a dilution range
Study plan
Fluidics startup
Triplicate samples from fluid stream.
SAMPLES 1-3
Sort setup(CS&T, BD
FACSAccudrop)
4-way test sortSAMPLES 4-7
Standard PAS
Fluidics startup
Triplicate samples from fluid stream.SAMPLES 8-10
Sort Setup (CS&T, BD
FACSAccudrop)
4-way test sortSAMPLES 11-14
Low-endotoxin
PAS
Fluidics startup
Triplicate samples from fluid streamSAMPLES 15-17
Sort Setup (CS&T, BD
FACSAccudrop)
4-way test sortSAMPLES 18-21
Shutdown using “Clean Flow Cell”
(DI water)
Phase 1: Standard PAS
Phase 2: Low-endotoxin PAS
Shutdown using “Clean Flow Cell”
(DI water)
Phase 0: Baseline determination
Baseline endotoxin levels
Cytometer A
0
2
4
6
8
10
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
Cytometer B
0
20
40
60
80
100
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
Cytometer C
0.00.51.01.52.02.53.03.5
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
•
The level of endotoxin present in a BD FACSAria II is extremely variable
•
None of the baseline levels are <0.1 EU/mL (target)
PAS procedure
AIR PRESSURE
Fluidics Cart Cytometer
AIR PRESSURE
BULKINJECTIONASPIRATED
WASTE(VACUUM)
ASPIRATEDWASTE
(DEGAS)
SHEATHFILTER
0” – 9”
R1
Sheath Regulator
R2
V17V20
V5V6
•
Fluidics•
Bleach soak•
Water soak•
Ethanol soak•
Autoclave sheath tank•
New sheath fluid•
Replace sheath filter
Endotoxin levels after a standard PAS procedure
Cytometer C
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
Startup Sort Startup Sort
Baseline Standard PAS
Endo
toxi
n le
vel (
EU/m
L)
<0.01
•
The standard PAS procedure is highly effective at reducing endotoxin levels.•
The reduction in endotoxin is influenced by the starting level.•
Two of three instruments achieved the target value of <0.1 EU/mL.•
In two of three instruments, the endotoxin level rose after a “mock sort”.
Cytometer A
0
2
4
6
8
10
Startup Sort Startup Sort
Baseline Standard PAS
Endo
toxi
n le
vel (
EU/m
L)
0.06 0.017
Cytometer B
0
20
40
60
80
100
Startup Sort Startup Sort
Baseline Standard PAS
Endo
toxi
n le
vel (
EU/m
L)
0.36 0.93
Low-endotoxin PAS procedure
ItemPhase 1
(Standard PAS)Phase 2
(Low-endotoxin PAS)
SheathReplaced: Low-endotoxin and sterile IVD reagent Replaced: Low-endotoxin and sterile IVD reagent
Ethanol As found Replaced: Low-endotoxin and sterile USP reagent
Bleach As found Replaced: Sterile USP reagent
DI (water) Replaced: Low-endotoxin and sterile reagent Replaced: Low-
endotoxin and sterile USP reagent
CS&T beads General lab stock New (unopened) vial
BD FACS™ Accudrop beads General lab stock New (unopened) vial
12 x 75-mm tubes Sterile, non-pyrogenic Sterile, non-pyrogenic
Sheath tank Autoclaved Cleaned (Contrad) and autoclaved
Sheath filter Replaced Replaced
Fluid containers (DI water, bleach, and ethanol) As found Cleaned and autoclaved
DI water probe Decontaminated in bleach Decontaminated in sterile USP bleach
Bleach and ethanol probes As found Decontaminated in sterile USP bleach
Fluidics cart filters As found Replaced
Collection device As found Cleaned and decontaminated
Accessible cytometer components As found Cleaned
Low-endotoxin supplies
Item Product name Product descriptionEndotoxin level
(from manufacturer’s C of A)
Sheath
DPBS w/o Ca and Mg, 10X, (Mediatech) (Diluted 1:10 in WFI –
see below) Sterile IVD <0.005 EU/mL
Ethanol STER-AHOL®
70% WFI, Veltek
Associates, Inc (VAI)
Sterile, USP, low endotoxin <0.03 EU/mL
BleachHYPO-CHLOR®
(VAI)(Diluted 1:10 in WFI –
see below) Sterile, USP Not tested
DI waterHyPure™
WFI quality water (Hyclone®) Sterile, USP <0.01 EU/mL
12 x 75-mm tubes 12 x 75-mm tubes Sterile, non-pyrogenic ≤0.5 EU/mL
Isopropanol DECON-AHOL®
70% WFI (VAI)Sterile, USP low endotoxin <0.03 EU/mL
Sterile cleaning cloths Gamma wipes Sterile Not tested
Collection and storage tubes for samples Test tubes, (15 mL) Sterile, non-pyrogenic <20 EU/tube
Cytometer C
0.0
0.2
0.4
0.6
0.8
1.0
1.2
Startup Sort Startup Sort
Standard PAS Low endotoxinPAS
Endo
toxi
n Le
vel (
EU/m
L)
<0.01 <0.01 <0.01
1.6
Cytometer B
0.0
0.2
0.4
0.6
0.8
1.0
1.2
Startup Sort Startup Sort
Standard PAS Low endotoxinPAS
Endo
toxi
n Le
vel (
EU/m
L)
Cytometer A
0.0
0.2
0.4
0.6
0.8
1.0
1.2
Startup Sort Startup Sort
Standard PAS Low endotoxinPAS
Endo
toxi
n Le
vel (
EU/m
L)
<0.05<0.05
Endotoxin levels after low-endotoxin PAS procedure
Cytometer A
0
2
4
6
8
10
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
Cytometer B
0
20
40
60
80
100
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
Cytometer C
0.00.51.01.52.02.53.03.5
Startup Sort
Baseline
Endo
toxi
n le
vel (
EU/m
L)
Endotoxin levels after low-endotoxin PAS procedure
Instrument
Average Endotoxin levels (EU/mL) Phase 0
(Baseline)Phase 1
(Standard PAS)Phase 2
(Low endotoxin PAS)Startup1 Test Sort2 Startup Test Sort Startup Test Sort
A 8.64 ±0.43 6.86 ±0.62 0.06 ±0.00 0.02 ±0.00 <0.05 <0.05B 83.94 ±2.23 67.22 ±11.78 0.36 ±0.17 0.93 ±0.23 0.58 ±0.14 0.39 ±0.03C 2.53 ±0.07 2.46 ±0.66 <0.01 1.67 ±0.34 <0.01 <0.01
•
Cytometer A maintained the already low endotoxin levels.•
Cytometers B and C showed an additional reduction in endotoxin.•
Two out of three cytometers achieved the target value of <0.1 EU/mL.
1 Mean and SD of triplicate samples2 Mean and SD of quadruplicate samples
Discussion: Baseline
•
Baseline endotoxin levels of different cytometers are extremely variable. •
2.5–83.4 EU/mL
•
Probably related to: •
How often the cytometer is used
•
How well it is maintained•
Leaving the cytometer turned on with sheath fluid in the lines can result in:•
Growth of bacteria (and other organisms) in the fluid lines
•
Deposition of endotoxin
Discussion: Standard PAS procedure
•
This procedure can be highly effective at removing:•
Bacteria: 9 x 105
CFU down to 0 CFU/mL•
Endotoxin: <0.1EU/mL (2 out of 3)
•
When setting up for and performing a sort, it is possible to:•
Maintain low-endotoxin status
•
Increase (re-contaminate) endotoxin status•
Cytometer B: From 0.36 to 0.93 EU/mL•
CytomterC: From <0.01 to 1.67 EU/mL
Discussion: Low-endotoxin PAS procedure
•
Is highly effective at achieving low-endotoxin status
•
It is possible to achieve the target value of <0.1 EU/mL (2 out of 3)
•
When using extra precautions and diligence when setting up and performing a sort, it is possible to:•
Maintain extremely low-endotoxin status
•
Cytometer A: <0.05 EU/mL•
Cytometer C: <0.01 EU/mL•
Further reduce endotoxin levels
•
Cytometer B: 0.58 to 0.39 EU/mL
Overall conclusion
•
The PAS procedure can be extremely efficient at reducing:•
Bacterial contamination
•
Endotoxin load•
This procedure must be validated by customers with their own reagents and instruments and may vary under different conditions.
•
The BD FACSAria II is an RUO instrument•
BD makes no claims of completely eliminating bacteria or endotoxin.
Overview
•
Background•
BD FACSAria II fluidics
•
Prepare for Aseptic Sort (PAS) procedure•
Decontamination of the BD FACS Aria II•
Bacteria
•
Endotoxin•
Tips to limit contamination
Tips for limiting bacteria and endotoxin contamination of the BD FACSAria II
•
Maintain and clean the cytometer.•
Limit skin contact with the fluidics system.
•
Use good quality reagents.•
If you use a central DI water system, make sure it is maintained regularly.
•
DO NOT top off fluid containers.•
Use freshly prepared bleach.•
10% Clorox®
(0.5% sodium hypochlorite) in water is not stable and can lose effectiveness due to oxidation and reaction with impurities in water.
•
BD™
FACSClean
solution is made from high quality reagents and is known to be stable.
Tips for limiting bacteria contamination during a sort
•
Use a well maintained cytometer.•
Perform the PAS procedure.
•
Use aseptic technique and sterile reagents whenever possible. •
Sheath
•
Staining sample•
Ancillary reagents
•
Collecting sorted cells
Tips for limiting endotoxin contamination during a sort
•
Limit bacterial contamination (previous slide).•
Always use aseptic technique.•
Use low-endotoxin reagents whenever possible.•
Antibodies (NA/LE)•
Serum (often has high endotoxin)•
Ancillary reagents•
Cleaning reagents (BD FACSClean
solution, water, and ethanol)•
Use low-pyrogen plastic ware (BD Falcon™
products).•
Check C of As.•
Be diligent in the PAS procedure and instrument cleaning.•
Surface cleaning•
Reagents•
Cleaning cloths•
Fluidic tanks•
Take special care with the tube holder
Thank you
•
Copies of the application notes can be found on the BD Biosciences website
•
www.bdbiosciences.com•
Navigate to the BD FACSAria II page
•
Click More Documents•
Related BD products•
No azide/low endotoxin (NA/LE) antibodies
•
BD Falcon
products are certified non- pyrogenic
For Research Use Only. Not for use in diagnostic or therapeutic procedures.